Electron excitation, and inhibition with EIT/CPT?

Further discussion is needed to fully understand the potential applications and implications of this phenomenon.
  • #1
jaketodd
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It it being debated whether Electromagnetically Induced Transparency (EIT)/Coherent Population Trapping (CPT) can stop a molecule from gaining an electron.

I want now, in this thread, to turn to the possibility of creating transparency/trapping in a molecule that would either suppress electrons (already in the molecule) from gaining energy to a more excited state, or make it so they cannot lose a certain amount of energy to a less excited state. Your thoughts please, and does this diagram apply as an example of the energies required for these phenomena?

Thanks,

Jake
 
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  • #2
Yes, it is possible to use EIT/CPT to suppress electrons from gaining energy to a more excited state or from losing energy to a less excited state. The diagram you provided is an example of the energies required for this phenomena. EIT/CPT involves manipulating the transitions of an atom or molecule between different energy states. It can be used to create a transparent window in the atom's energy level structure, allowing light to pass through without being absorbed and trapped. This prevents electrons from gaining energy and also prevents them from losing energy.
 

1. What is electron excitation and inhibition?

Electron excitation and inhibition refer to the process of altering the energy state of an electron. Excitation occurs when an electron gains energy and moves to a higher energy level, while inhibition occurs when an electron loses energy and moves to a lower energy level.

2. What is EIT/CPT?

EIT/CPT stands for Electromagnetically Induced Transparency/Coherent Population Trapping. It is a technique used in atomic and molecular physics to control the energy levels of electrons and manipulate their behavior.

3. How does EIT/CPT work?

EIT/CPT works by using laser light to excite and inhibit electrons in a sample of atoms or molecules. The laser light is tuned to specific frequencies that correspond to the energy levels of the electrons, causing them to either gain or lose energy and change their behavior.

4. What are the applications of EIT/CPT?

EIT/CPT has a variety of applications in fields such as quantum computing, atomic clocks, and precision measurements. It is also being studied for its potential use in developing new technologies, such as advanced sensors and communication devices.

5. What are the advantages of using EIT/CPT over other techniques?

EIT/CPT has several advantages over other techniques, including its ability to precisely control the energy levels of electrons, its non-invasive nature, and its potential for use in low-power devices. It also allows for the manipulation of multiple energy levels simultaneously, making it a versatile tool for a variety of applications.

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